Interstitial ion homeostasis and acid-base balance are maintained in oedematous brain of mice with acute toxic liver failure

Neurochemistry International
Marta Obara-MichlewskaJan Albrecht

Abstract

Acute toxic liver failure (ATLF) rapidly leads to brain oedema and neurological decline. We evaluated the ability of ATLF-affected brain to control the ionic composition and acid-base balance of the interstitial fluid. ATLF was induced in 10-12 weeks old male C57Bl mice by single intraperitoneal (i.p.) injection of 100 μg/g azoxymethane (AOM). Analyses were carried out in cerebral cortex of precomatous mice 20-24 h after AOM administration. Brain fluid status was evaluated by measuring apparent diffusion coefficient [ADC] using NMR spectroscopy, Evans Blue extravasation, and accumulation of an intracisternally-injected fluorescent tracer. Extracellular pH ([pH]e) and ([K+]e) were measured in situ with ion-sensitive microelectrodes. Cerebral cortical microdialysates were subjected to photometric analysis of extracellular potassium ([K+]e), sodium ([Na+]e) and luminometric assay of extracellular lactate ([Lac]e). Potassium transport in cerebral cortical slices was measured ex vivo as 86Rb uptake. Cerebral cortex of AOM-treated mice presented decreased ADC supporting the view that ATLF-induced brain oedema is primarily cytotoxic in nature. In addition, increased Evans blue extravasation indicated blood brain barrier leakage, and i...Continue Reading

Citations

Feb 20, 2019·Neurochemical Research·Tatyana Shulyatnikova, Alexei Verkhratsky
Oct 24, 2020·International Journal of Molecular Sciences·Anna Maria CzarneckaMagdalena Zielińska

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